CN101424472A

CN101424472A - Water-cooling system for production facility

Info

Publication number: CN101424472A
Application number: CNA2008102445485A
Authority: CN
Inventors: 杨风彦; 刘俊
Original assignee: KONCA SOLAR CELL (WUXI) CO Ltd
Current assignee: KONCA SOLAR CELL (WUXI) CO Ltd
Priority date: 2008-11-20
Filing date: 2008-11-20
Publication date: 2009-05-06
Anticipated expiration: 2028-11-20
Also published as: CN101424472B

Abstract

The invention relates to a water cooling system of production equipment. The water cooling system is characterized in comprising a refrigerator unit, a heat exchange, a water tank, a cooling tower circulation pipe loop and an equipment cooling circulation pipe loop, which are connected through pipes. Functional valves are arranged in the pipes to control the opening and closing of the pipes. The refrigerator unit and the heat exchanger are parallelly connected through a pipe. Cooling end pipes of the refrigerator unit and the heat exchanger are communicated with the water tank through a water inlet pipe and a water outlet pipe. A water inlet pipe and a water outlet pipe of the equipment cooling circulation pipe loop are communicated with the water tank. The cooling system of production equipment can simply use the heat exchanger as a cooling source for cooling the production equipment in winder and other time when the outdoor temperature is lower, so as to save large amount of energy for the refrigerator unit; moreover, because the water tank is arranged, the cooling system can reduce impact of fluctuation of water temperature on the refrigerator unit and the production equipment and the failure rate of the refrigerator unit and the production equipment and improve the service life of the refrigerator unit and the production equipment.

Description

The production equipment water cooling system

Technical field

The present invention relates to a kind of heat-exchange system, especially relate to a kind of production equipment water cooling system.

Background technology

As shown in Figure 1, the current production devices cooling system usually by pipeline with production equipment 1 ' directly and freezing unit 3 ' be communicated with, by the water in the water pump in the pipeline 2 ' realization pipeline production equipment 1 ' and freezing unit 3 ' between circulation, thereby reach cooling production equipment 1 ' purpose.Freezing unit 3 ', realize freezing unit 3 ' cooling and heat radiation own by pipeline and cooling tower 4 ' and water pump 5 ' is connected.There is following problem in above-mentioned production equipment cooling system:

1. because production equipment directly is connected by pipeline with freezing unit, directly be the cooling of production apparatus cools by freezing unit, therefore, no matter summer or winter, no matter ambient temperature is a height or low, all need be the cooling of production apparatus cools by freezing unit, energy resource consumption is very high.

2. freezing unit directly connects production equipment by pipeline, be the cooling of production apparatus cools, because the variation of production equipment consumption and the variation of environment, the fluctuating temperature that enters freezing unit is bigger, freezing unit is impacted, may cause the fault of freezing unit, thereby ordinary production is affected, equally also can shorten the service life of freezing unit.In addition, the fluctuating temperature that enters freezing unit also can cause the coolant water temperature of freezing unit output also to produce fluctuation, thereby influence causes the fault of production equipment to the cooling of production equipment.

Summary of the invention

The applicant has carried out research and has improved at above-mentioned problem, and a kind of production equipment water cooling system is provided, it can reduce energy resource consumption, make circulating water temperature relatively stable, reduce the probability of malfunction of production equipment and freezing unit, prolong the service life of production equipment and freezing unit simultaneously.

In order to solve the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of production equipment water cooling system is characterized in that: comprises freezing unit, heat exchanger, pond, cooling tower circulation line and apparatus cools circulation line, connects by pipeline between them, the keying of duty valve control pipeline is set in the pipeline, wherein,

Freezing unit and heat exchanger are connected in parallel by pipeline, are respectively equipped with duty valve in the described pipeline;

The radiating end pipeline of freezing unit and heat exchanger is communicated with the cooling tower circulation line;

The colling end pipeline of freezing unit and heat exchanger is communicated with the pond by inlet channel and outlet conduit, is provided with water pump in the described inlet channel;

The inlet channel of apparatus cools circulation line and outlet conduit are communicated with the pond;

The outlet conduit of the inlet channel of apparatus cools circulation line and freezing unit and heat exchanger colling end near and be arranged on the end in pond, the inlet channel of the outlet conduit of apparatus cools circulation line and freezing unit and heat exchanger colling end is close and be arranged on the other end in pond.

Further:

The colling end pipeline of described freezing unit and heat exchanger is provided with duty valve by the outlet conduit of pipeline connectivity device cool cycles pipeline in the described outlet conduit, on the colling end inlet channel of described freezing unit and heat exchanger duty valve is set.

Described heat exchanger is a plate type heat exchanger in parallel.

Be provided with expansion drum in the described apparatus cools circulation line.

Technique effect of the present invention is:

Adopt the structure of heat exchangers in parallel on freezing unit in the production equipment water cooling system disclosed by the invention, and the linkage function valve is controlled its keying, when ambient temperatures such as summer are higher, the refrigeration work consumption that cooling device needs is higher, use freezing unit to freeze, when waiting ambient temperature low in the winter time, the refrigeration work consumption that the cooling production equipment needs is lower, can use the low-temperature receiver of heat exchanger separately, thereby save the energy that a large amount of freezing units consumes as the production equipment cooling; In system, increase the pond, like this, water through freezing unit cooling no longer directly enters production equipment, for the water after the cooling of production apparatus cools does not directly enter freezing unit yet, but in the pond, mix, because the thermal capacity in whole pond is bigger, water has absorbed the heat that production equipment produces behind the cooling production equipment, it is less relatively that it enters the temperature rise that tank water is caused behind the pond, the temperature that has guaranteed cooling production equipment water is relatively stable, equally, the water temperature that enters freezing unit is also relatively stable, thereby reduce the impact of fluctuating temperature, reduce the probability that freezing unit and production equipment break down, prolong the service life of freezing unit and production equipment freezing unit and production equipment; In addition, in system, increase the pond, when freezing unit or heat exchanger break down suddenly, water in the pond can continue production equipment is cooled off, can there be time enough to close production equipment like this, can not break down suddenly, and production equipment is caused damage because of freezing unit or heat exchanger.

Description of drawings

Fig. 1 is the schematic diagram of existing equipment water cooling system.

Fig. 2 is a schematic diagram of the present invention.

When Fig. 3 worked for high temperature mode, pipeline of the present invention connected and flows to schematic diagram.

When Fig. 4 worked for energy saver mode, pipeline of the present invention connected and flows to schematic diagram.

When Fig. 5 worked for save mode, pipeline of the present invention connected and flows to schematic diagram.

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present invention is described in further detail.

As shown in Figure 2, the present invention includes freezing unit 17, heat exchanger 20, pond 27, cooling tower circulation line and apparatus cools circulation line, connect by pipeline between them, the keying of duty valve control pipeline is set in the pipeline.Freezing unit 17 and heat exchanger 20 are connected in parallel by

pipeline

16,18,19,21,32,33,36,38, are respectively equipped with

duty valve

23,24,25,26,34,35,37,39 in the

pipeline

16,18,19,21,32,33,36,38.The radiating

end pipeline

16,18,19,21 of freezing unit 17 and heat exchanger 20 is communicated with the cooling tower circulation lines, and the cooling tower circulation line connects cooling towers 12 by

pipeline

13,15,22 and water pump 14 constitutes, for freezing unit 17 heat radiations or as the low-temperature receiver of heat exchanger 20.The

colling end pipeline

32,33,36,38 of freezing unit 17 and heat exchanger 20 is communicated with pond 27 by

inlet channel

28,30 and outlet conduit 40, is provided with water pump 29 in the inlet channel 28,30.The inlet channel 42 of apparatus cools circulation line and

outlet conduit

46,48 are communicated with pond 27, the apparatus cools circulation line connects production equipment 45 by water pump 43 and

pipeline

42,44,46,48 and constitutes, in the apparatus cools circulation line expansion drum 49 can also be set, with stablizing of pressure in the maintenance pipeline.The outlet conduit 40 of the inlet channel 42 of apparatus cools circulation line and freezing unit 17 and heat exchanger 20 colling ends near and be arranged on the end in pond 27, the inlet channel 28 of the outlet conduit 48 of apparatus cools circulation line and freezing unit 17 and heat exchanger 20 colling ends near and be arranged on the other end in pond 27, can make the water that enters the pond behind the cooling device so not near the inlet channel 42 of apparatus cools circulation line, but through freezing unit 17 or heat exchanger 20 cooled water near the inlet channel 42 of apparatus cools circulation line, thereby more effectively cool off for production equipment.The

colling end pipeline

32,38 of freezing unit 17 and heat exchanger 20 is by the

outlet conduit

46,48 of pipeline 41 connectivity device cool cycles pipelines, be provided with duty valve 47 in the described

outlet conduit

46,48, on the colling end inlet channel 30 of freezing unit 17 and heat exchanger 20 duty valve 31 be set.In the present embodiment, heat exchanger 20 adopts plate type heat exchanger in parallel.

When summer, ambient temperature is higher, cooling device needs higher refrigeration work consumption, can select high temperature mode work, be opening

function valve

31,34,24,23,47,

closing function valve

39,37,26,25,35 uses freezing unit 17 to provide low-temperature receiver as the production apparatus cools separately, pipeline connects as shown in Figure 3, and the direction of arrow among the figure is the direction of current.Radiating end at freezing unit 17, water through cooling tower 12 radiating and coolings flows out from cooling tower 12 lower ends, through pipeline 13, enter water pump 14, provide power by water pump 14 after, enter freezing unit 17 through pipeline 15, duty valve 24 and pipeline 16, be freezing unit 17 radiating and coolings,, enter the upper end of cooling tower 12 through pipeline 18, duty valve 23 and pipeline 22 from the water that freezing unit 17 flows out, the heat radiation cool cycles of water is finished in the cooling of dispelling the heat in cooling tower 12.At the colling end of freezing unit 17, the circulation separated into two parts of water: the cooling segment of the water in the pond self and the water cooling production equipment part in the pond.Water in the pond 27 is extracted out by water pump 29 through pipeline 28, enter the water inlet of freezing unit 17 then through pipeline 30, duty valve 31, pipeline 32, after in freezing unit 17, realizing the cooling of water, flow out from the delivery port of freezing unit 17, return the pond through pipeline 33, duty valve 34 and pipeline 40, realize the cooling of the water self in the pond.The water that cools off through freezing unit 17 in the pond 27, extracted out by water pump 43 by pipeline 42, enter production equipment 45 and expansion drum 49 respectively through pipeline 44 then, in production equipment 45 cooling production equipment after, enter the pond through pipeline 46, duty valve 47 and pipeline 48, finish cooling production equipment.

In the winter time, ambient temperature is lower, need refrigeration work consumption lower, the work of selective energy-saving pattern, be opening

function valve

31,39,37,26,25,35,47,

closing function valve

34,24,23 uses heat exchanger 20 to provide low-temperature receiver as the production apparatus cools separately, pipeline connects as shown in Figure 4, and the direction of arrow among the figure is the direction of current.Radiating end at heat exchanger 20, water through cooling tower 12 radiating and coolings flows out from cooling tower 12 lower ends, enter water pump 14 through pipeline 13, after providing power by water pump 14, enter plate type heat exchanger 20 through pipeline 15, duty valve 26, pipeline 19, in plate type heat exchanger 20, finish the heat exchange with colling end water after, flow out from plate type heat exchanger 20, flow into the upper end of cooling towers 12 through pipeline 21, duty valve 25, pipeline 22, the heat radiation cool cycles of water is finished in the cooling of dispelling the heat in cooling tower 12.At the colling end of heat exchanger 20, the circulation separated into two parts of water: the cooling segment of the water in the pond self and the water cooling production equipment part in the pond.Water in the pond 27 is extracted out by water pump 29 through pipeline 28, enter plate type heat exchanger 20 through pipeline 30, duty valve 31, duty valve 35, duty valve 39 and pipeline 38 then, after in plate type heat exchanger 20, realizing the cooling of water, flow out from plate type heat exchanger 20, return the pond through pipeline 36, duty valve 37 and pipeline 40, realize the cooling of the water self in the pond.The water that cools off through plate type heat exchanger 20 in the pond 27, extracted out by water pump 43 through pipeline 42, enter production equipment 45 and expansion drum 49 respectively through pipeline 44 then, in production equipment 45 cooling production equipment after, enter the pond through pipeline 46, duty valve 47, pipeline 48, finish cooling production equipment.System works under energy saver mode, uses heat exchanger 20 to provide low-temperature receiver as the production apparatus cools separately, can save the energy that a large amount of freezing unit consumes.

When high temperature mode is worked, if water pump 43 can provide enough pressure, can select save mode work, opening function valve 35, closing function valve 47, duty valve 31 and water pump 29 use freezing unit 17 to provide low-temperature receiver as the production apparatus cools separately, the cooling water that provides to production equipment 45 by water pump 43, for production equipment 45 directly enters freezing unit 17 after cooling, pipeline connects as shown in Figure 5, and the direction of arrow among the figure is the direction of current.At this moment, at the radiating end of freezing unit 17, current are identical during with high temperature mode through the course of work of cooling tower 12.Colling end at freezing unit 17, water in the pond 27 is extracted out by water pump 43 through pipeline 42, enter production equipment 45 through pipeline 44 then, after finishing cooling to production equipment, enter freezing unit 17 through pipeline 46, pipeline 41, duty valve 35 and pipeline 32, in freezing unit 17, after the cooling of water self, flow out, return the pond through pipeline 33, duty valve 34 and pipeline 40 from freezing unit 17.So just save water pump 29, saved the energy that water pump 29 is consumed.This save mode is not suitable for using under energy saver mode, because the resistance of ducting of plate type heat exchanger 20 is bigger, needs to strengthen the hoisting power of water pump 43, and it is not enough to offset the energy that water pump 29 is consumed.

Claims

1. production equipment water cooling system, it is characterized in that: comprise freezing unit (17), heat exchanger (20), pond (27), cooling tower circulation line and apparatus cools circulation line, connect by pipeline between them, the keying of duty valve control pipeline is set in the pipeline, wherein

Freezing unit (17) and heat exchanger (20) are connected in parallel by pipeline (16,18,19,21,32,33,36,38), are respectively equipped with duty valve (23,24,25,26,34,35,37,39) in the described pipeline (16,18,19,21,32,33,36,38);

The radiating end pipeline of freezing unit (17) and heat exchanger (20) (16,18,19,21) is communicated with the cooling tower circulation line;

The colling end pipeline of freezing unit (17) and heat exchanger (20) (32,33,36,38) is communicated with pond (27) by inlet channel (28,30) and outlet conduit (40), and described inlet channel is provided with water pump (29) in (28,30);

Inlet channel of apparatus cools circulation line (42) and outlet conduit (46,48) are communicated with pond (27);

The outlet conduit (40) of the inlet channel of apparatus cools circulation line (42) and freezing unit (17) and heat exchanger (20) colling end near and be arranged on the end in pond (27), the inlet channel (28) of the outlet conduit of apparatus cools circulation line (48) and freezing unit (17) and heat exchanger (20) colling end near and be arranged on the other end of pond (27).

2. according to the described production equipment water cooling system of claim 1, it is characterized in that: the colling end pipeline (32,38) of described freezing unit (17) and heat exchanger (20) is by the outlet conduit (46,48) of pipeline (41) connectivity device cool cycles pipeline, described outlet conduit is provided with duty valve (47) in (46,48), on the colling end inlet channel (30) of described freezing unit (17) and heat exchanger (20) duty valve (31) is set.

3. according to claim 1 or 2 described production equipment water cooling systems, it is characterized in that: described heat exchanger (20) is a plate type heat exchanger in parallel.

4. according to claim 1; Or 2 described production equipment water cooling systems, it is characterized in that: be provided with expansion drum (49) in the described apparatus cools circulation line.